Abstract
Abstract. Surface saturation can have a critical impact on
runoff generation and water quality. Saturation patterns are dynamic, thus
their potential control on discharge and water quality is also variable in
time. In this study, we assess the practicability of applying thermal
infrared (TIR) imagery for mapping surface-saturation dynamics.
The advantages of TIR imagery compared to other surface-saturation mapping
methods are its large spatial and temporal flexibility, its non-invasive
character, and the fact that it allows for a rapid and intuitive
visualization of surface-saturated areas. Based on an 18-month field
campaign, we review and discuss the methodological principles, the conditions
in which the method works best, and the problems that may occur. These
considerations enable potential users to plan efficient TIR imagery-mapping
campaigns and benefit from the full potential offered by TIR imagery, which
we demonstrate with several application examples. In addition, we elaborate
on image post-processing and test different methods for the generation of
binary saturation maps from the TIR images. We test the methods on various
images with different image characteristics. Results show that the best
method, in addition to a manual image classification, is a statistical
approach that combines the fitting of two pixel class distributions, adaptive
thresholding, and region growing.
Funder
FP7 People: Marie-Curie Actions
Fonds National de la Recherche Luxembourg
Subject
General Earth and Planetary Sciences,General Engineering,General Environmental Science
Cited by
19 articles.
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